RU139941U1 - INTEGRAL CONNECTION OF PIPES POLYETHYLENE - STEEL - Google Patents

Abstract

The utility model relates to pipeline transport of natural gas to consumers and pipe fittings made of pipes made of different materials, can also be used in water supply systems of industrial enterprises and other infrastructure. The technical result is achieved by the fact that the integral connection of polyethylene-steel pipes, consisting of a steel pipe, a polyethylene pipe covering the working part of the steel pipe with its working part, and a polyethylene coupling installed on the connection zone of the working parts of the pipes, the length of which exceeds the length of the working part of the pipes, additionally contains an amplification sleeve installed between the polyethylene pipe and the polyethylene sleeve and made of steel, and grooves are made on the outer surface of the working part of the steel pipe, located both along the body of the pipe and across the pipe. The use of an integral connection of polyethylene-steel pipes made in accordance with the claimed utility model improves the reliability of the connection, which will make it possible to increase the life of the pipeline without repair. 3 s.p. f-ly, 1 ill.

Description

The utility model relates to pipeline transport of natural gas to consumers and pipe fittings made of pipes made of different materials, can also be used in water supply systems of industrial enterprises and other infrastructure.

The long trouble-free operation of gas distribution pipelines made of polyethylene pipes, the outlets of which are made of steel pipes to consumers, largely depends on the reliability and tightness of the connection of these pipes made of different materials.

A one-piece pipe connection is known, consisting of a steel pipe, a plastic pipe, covering the working part of the steel pipe with its working part, and a sleeve mounted on the working part of the plastic pipe by welding or thread and overlapping a section of the plastic reinforced pipe adjacent to its working part, when this steel pipe is made with an annular tide on which the thread is applied, with an additional gearing which includes a sleeve mounted on the thread (patent RU No. 2220355, IPC F16L 13/007, publ. 12/27/2003).

A disadvantage of the known compound is its lack of reliability and tightness.

A one-piece pipe connection is known, including a steel pipe and a polymer pipe with a strength amplifier, covering the working part of the steel pipe with its working part, and a metal sleeve, the steel pipe being made in the form of a section with a mounting ring welded to it, the end part of which, the inner surface of the steel section the pipes and the surface of its working part are made with a polymer coating, the coupling is welded to the installation ring, and the working part of the polymer pipe with a strength amplifier in the form of uniformly distributed The circumferential longitudinal reinforcing elements and the spiral elements wound around them at a predetermined pitch, welded at the points of their intersection by spot welding, are installed on the steel section with interference and welded to the polymer coating of the working part of the steel pipe section, which in turn is welded to the steel pipe, wherein the coupling contains a cracker with a thread made in it, the step of which corresponds to the step of winding the spiral elements of the polymer pipe strength enhancer (patent RU No. 2263244, IPC F16L 13/007, publ. 10.27.2005).

The disadvantages of the known compounds are its lack of reliability and tightness, as well as the presence of a large number of welds, which during the operation of the pipeline will be subjected to corrosion and destruction.

Closest to the claimed utility model by technical nature, selected as a prototype, is an integral connection of polyethylene-steel pipes, consisting of a polyethylene pipe, a steel pipe and a coupling mounted on the outer surface of the working part of the polyethylene pipe, covering the working part of the steel pipe, the length of the coupling exceeds the length of the working part of the pipes, and polyethylene with a coefficient of linear expansion equal to the coefficient of linear expansion of the polyethylene pipe (pipe nt RU No. 2127394, IPC F16L 13/007, publ. 03/10/1999).

The disadvantage of the prototype is its lack of reliability and tightness.

The problem the utility model is aimed at resolving this drawback, improving the permanent connection of polyethylene-steel pipes.

The technical result is to increase the reliability of the permanent connection of polyethylene-steel pipes, which will increase the life of the pipeline without repair.

The technical result is achieved by the fact that the integral connection of polyethylene-steel pipes, consisting of a steel pipe, a polyethylene pipe covering the working part of the steel pipe with its working part, and a polyethylene coupling mounted on the connection zone of the working parts of the pipes, the length of which exceeds the length of the working part of the pipes, additionally contains an amplification sleeve installed between the polyethylene pipe and the polyethylene sleeve and made of steel, and grooves are made on the outer surface of the working part of the steel pipe, located both along the body of the pipe and across the pipe.

The installation of an additional reinforcing coupling made of steel, allows to increase the reliability of one-piece connection of polyethylene-steel pipes due to a more snug fit of the surfaces of polyethylene and steel pipes. Grooves made on the outer surface of the working part of the steel pipe, both along its body and across the pipe, provide more reliable adhesion of the connection elements, which allows the connection to withstand tensile and torsional loads during operation of the pipeline.

The utility model is illustrated in the drawing:

FIG. - one-piece connection of polyethylene-steel pipes, general view.

The permanent connection of polyethylene-steel pipes includes a steel pipe 1 with a working part 3, a polyethylene pipe 2 with a working part 4, a polyethylene sleeve 5, an amplifying sleeve 6 made of steel and installed between the polyethylene pipe 2 and the polyethylene sleeve 5, grooves 7 made on the outer surface of the working part 3 of the steel pipe 1, both along the body of the steel pipe 1 and across.

Under production conditions, the assembly of an integral connection of polyethylene-steel pipes is as follows. Steel and polyethylene pipes are cut into workpieces of the required length - a steel pipe 1 with a working part 3 and a polyethylene pipe 2 with a working part 4. The working part 3 of the steel pipe 1 and the working part 4 of the polyethylene pipe 2 are connected by a bell-shaped method with heating of the joint to the temperature, which polyethylene acquires the necessary plasticity. On the connection zone of the working part 3 of the steel pipe 1 and the working part 4 of the polyethylene pipe 2, a reinforcing steel sleeve 6 is put on top of the polyethylene pipe 2 and crimped onto a crimping machine. Then, a polyethylene sleeve 5 is pressed onto the reinforcing steel sleeve 6 mounted on the connection zone of the working part 3 of the steel pipe 1 and the working part 4 of the polyethylene pipe 2, the length of which exceeds the length of the working part 4 of the polyethylene pipe 2, covering the working part 3 of the steel pipe 1.

The use of an integral connection of polyethylene-steel pipes made in accordance with the claimed utility model improves the reliability of the connection, which will make it possible to increase the life of the pipeline without repair.

Claims (4)

1. Permanent connection of pipes polyethylene - steel, consisting of a steel pipe, a polyethylene pipe covering the working part of the steel pipe with its working part, and a polyethylene coupling mounted on the connection zone of the working parts of the pipes, the length of which exceeds the length of the working part of the pipes, characterized in that it additionally contains an amplification clutch, and grooves are made on the outer surface of the working part of the steel pipe. 2. The permanent connection of the pipes polyethylene - steel according to claim 1, characterized in that the amplification coupling is installed between the polyethylene pipe and the polyethylene coupling. 3. The permanent connection of the pipes polyethylene - steel according to claim 1, characterized in that the reinforcing sleeve installed between the polyethylene pipe and the polyethylene sleeve is made of steel. 4. The permanent connection of pipes polyethylene - steel according to claim 1, characterized in that the grooves made on the outer surface of the working part of the steel pipe are located both along the pipe body and across the pipe.

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